Test Bank for Hill's Chemistry for Changing
Times, 15e John Hill, Terry, Marilyn Duerst,
Rill Reuter (All Chapters)
,1. Chemistry
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1.1 Science and Technology: The Roots of Knowledge
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1.2 Science: Reproducible, Testable, Tentative, Predictive, and Explanatory
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1.3 Science and Technology: Risks and Benefit
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1.4 Solving Society's Problems: Scientific Research
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1.5 Chemistry: A Study of Matter and Its Changes
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1.6 Classification of Matter
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1.7 The Measurement of Matter
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1.8 Density
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1.9 Energy: Heat and Temperature
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1.10 Critical Thinking
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2. Atoms
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2.1 Atoms: Ideas from the Ancient Greeks
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2.2 Scientific Laws: Conservation of Mass and Definite Proportions
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2.3 John Dalton and the Atomic Theory of Matter
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2.4 The Mole and Molar Mass
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2.5 Mendeleev and the Periodic Table
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2.6 Atoms and Molecules: Real and Relevant
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3. Atomic Structure
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3.1 Electricity and the Atom
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3.2 Serendipity in Science: X-Rays and Radioactivity
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3.3 Three Types of Radioactivity
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,3.4 Rutherford's Experiment: The Nuclear Model of the Atom
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3.5 The Atomic Nucleus
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3.6 Electron Arrangement: The Bohr Model (Orbits)
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3.7 Electron Arrangement: The Quantum Model (Orbitals/Subshells)
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3.8 Electron Configurations and the Periodic Table
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4. Chemical Bonds
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4.1 The Art of Deduction: Stable Electron Configurations
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4.2 Lewis (Electron-Dot) Symbols
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4.3 The Reaction of Sodium with Chlorine
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4.4 Using Lewis Symbols for Ionic Compounds
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4.5 Formulas and Names of Binary Ionic Compounds
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4.6 Covalent Bonds: Shared Electron Pairs
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4.7 Unequal Sharing: Polar Covalent Bonds
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4.8 Polyatomic Molecules: Water, Ammonia, and Methane
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4.9 Polyatomic Ions
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4.10 Guidelines for Drawing Lewis Structures
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4.11 Molecular Shapes: The VSEPR Theory
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4.12 Shapes and Properties: Polar and Nonpolar Molecules
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5. Chemical Accounting
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5.1 Chemical Sentences: Equations
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5.2 Volume Relationships in chemical Equations
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5.3 Avogadro's Number and the Names
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5.4 Molar Mass: Mole-to-Mass and Mass-to-Mole Conversions
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, 5.5 Solutions
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6. Gases, Liquids, Solids…and Intermolecular Forces
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6.1 Solids, Liquids, and Gases
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6.2 Comparing Ionic and Molecular Substances
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6.3 Forces between Molecules
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6.4 Forces in Solutions
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6.5 Gases: The Kinetic-Molecular Theory
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6.6 The Simple Gas Laws
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6.7 The Ideal Gas Law
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7. Acids and Bases
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7.1 Acids and Bases: Experimental Definitions
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7.2 Acids, Bases, and Salts
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7.3 Acidic and Basic Anhydrides
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7.4 Strong and Weak Acids and Bases
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7.5 Neutralization
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7.6 The pH Scale
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7.7 Buffers and Conjugate Acid-Base Pairs
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7.8 Acids and Bases in Industry and in Daily Life
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8. Oxidation and Reduction
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8.1 Oxidation and Reduction: Four Views
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8.2 Oxidizing and Reducing Agents
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8.3 Electrochemistry: Cells and Batteries
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8.4 Corrosion and Explosion
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Times, 15e John Hill, Terry, Marilyn Duerst,
Rill Reuter (All Chapters)
,1. Chemistry
qw
1.1 Science and Technology: The Roots of Knowledge
qw qw qw qw qw qw qw
1.2 Science: Reproducible, Testable, Tentative, Predictive, and Explanatory
qw qw qw qw qw qw qw
1.3 Science and Technology: Risks and Benefit
qw qw qw qw qw qw
1.4 Solving Society's Problems: Scientific Research
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1.5 Chemistry: A Study of Matter and Its Changes
qw qw qw qw qw qw qw qw
1.6 Classification of Matter
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1.7 The Measurement of Matter
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1.8 Density
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1.9 Energy: Heat and Temperature
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1.10 Critical Thinking
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2. Atoms
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2.1 Atoms: Ideas from the Ancient Greeks
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2.2 Scientific Laws: Conservation of Mass and Definite Proportions
qw qw qw qw qw qw qw qw
2.3 John Dalton and the Atomic Theory of Matter
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2.4 The Mole and Molar Mass
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2.5 Mendeleev and the Periodic Table
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2.6 Atoms and Molecules: Real and Relevant
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3. Atomic Structure
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3.1 Electricity and the Atom
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3.2 Serendipity in Science: X-Rays and Radioactivity
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3.3 Three Types of Radioactivity
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,3.4 Rutherford's Experiment: The Nuclear Model of the Atom
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3.5 The Atomic Nucleus
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3.6 Electron Arrangement: The Bohr Model (Orbits)
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3.7 Electron Arrangement: The Quantum Model (Orbitals/Subshells)
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3.8 Electron Configurations and the Periodic Table
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4. Chemical Bonds
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4.1 The Art of Deduction: Stable Electron Configurations
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4.2 Lewis (Electron-Dot) Symbols
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4.3 The Reaction of Sodium with Chlorine
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4.4 Using Lewis Symbols for Ionic Compounds
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4.5 Formulas and Names of Binary Ionic Compounds
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4.6 Covalent Bonds: Shared Electron Pairs
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4.7 Unequal Sharing: Polar Covalent Bonds
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4.8 Polyatomic Molecules: Water, Ammonia, and Methane
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4.9 Polyatomic Ions
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4.10 Guidelines for Drawing Lewis Structures
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4.11 Molecular Shapes: The VSEPR Theory
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4.12 Shapes and Properties: Polar and Nonpolar Molecules
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5. Chemical Accounting
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5.1 Chemical Sentences: Equations
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5.2 Volume Relationships in chemical Equations
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5.3 Avogadro's Number and the Names
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5.4 Molar Mass: Mole-to-Mass and Mass-to-Mole Conversions
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, 5.5 Solutions
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6. Gases, Liquids, Solids…and Intermolecular Forces
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6.1 Solids, Liquids, and Gases
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6.2 Comparing Ionic and Molecular Substances
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6.3 Forces between Molecules
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6.4 Forces in Solutions
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6.5 Gases: The Kinetic-Molecular Theory
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6.6 The Simple Gas Laws
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6.7 The Ideal Gas Law
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7. Acids and Bases
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7.1 Acids and Bases: Experimental Definitions
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7.2 Acids, Bases, and Salts
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7.3 Acidic and Basic Anhydrides
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7.4 Strong and Weak Acids and Bases
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7.5 Neutralization
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7.6 The pH Scale
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7.7 Buffers and Conjugate Acid-Base Pairs
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7.8 Acids and Bases in Industry and in Daily Life
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8. Oxidation and Reduction
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8.1 Oxidation and Reduction: Four Views
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8.2 Oxidizing and Reducing Agents
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8.3 Electrochemistry: Cells and Batteries
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8.4 Corrosion and Explosion
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